Maltose-[1-13C] Monohydrate, a specialized form of maltose, finds diverse uses in scientific endeavors. Here are the key applications of Maltose-[1-13C] Monohydrate:
Metabolic Flux Analysis: Delving into metabolic pathways, Maltose-[1-13C] Monohydrate serves as a powerful tool for metabolic flux analysis. By monitoring the 13C label's journey, researchers quantify fluxes across pathways like glycolysis and the citric acid cycle. This data is pivotal for unraveling cellular metabolism intricacies and refining biotechnological processes with precision.
NMR Spectroscopy: In the realm of nuclear magnetic resonance (NMR) spectroscopy, this compound plays a crucial role in exploring carbohydrate structures and dynamics. The distinctive 13C label amplifies NMR measurements' resolution and sensitivity. Researchers glean profound insights into carbohydrate molecular interactions and conformations across diverse environments.
Biochemical Pathway Elucidation: At the heart of deciphering biochemical pathways lies Maltose-[1-13C] Monohydrate. By tracking labeled carbon atoms, scientists unveil the enzymes and intermediates orchestrating maltose utilization and breakdown. This revelation is fundamental for grasping core biochemistry principles and shaping engineered metabolic pathways for innovative solutions.
Stable Isotope Labeling: Elevating proteomics and metabolomics, Maltose-[1-13C] Monohydrate acts as a beacon of stable isotope labeling for precise quantitative analyses. It elevates the accuracy and precision of mass spectrometry-based measurements as a reliable internal standard. This application is indispensable for uncovering biomarkers, conducting comparative studies, and mapping metabolic profiles with exactitude.
![Maltose-[1-13C] Monohydrate](https://resource.bocsci.com/structure/1-13c-maltose-monohydrate.gif)
